3种浮床植物对关中地区2种污染源涝池水体净化效率研究

基于对植物修复空间特异性的理解,针对联通关中水系的涝池近年来出现的水体富营养化和黑臭现象,选取常见浮床植物美人蕉、水菖蒲和西伯利亚鸢尾,通过室外水培试验,探究其对涝池污染原水的净化效果,试验共持续35天。结果表明:(1)试验结束时,3种植物在株高、根长生物量均有显著增加,增长率表现为美人蕉水菖蒲西伯利亚鸢尾。(2)美人蕉、水菖蒲和西伯利亚鸢尾对水体中TN的平均去除率分别为56.18%,52.17%,60.76%,均显著高于对照组(P0.05);美人蕉和水菖蒲对水体中TP平均去除率分别为55.42%和58.32%,均显著高于对照组(P0.05),而西伯利亚鸢尾组与对照组无显著差异(P0.05),此外美人蕉和水菖蒲还能起到调节水体pH和DO的作用。(3)3种植物对水体中NH_3—N的平均去除率分别为76.98%,65.71%,78.94%,其中美人蕉组和水菖蒲组NH_3—N的主要去除途径为植物吸收和硝化反应,西伯利亚鸢尾组NH_3—N的主要去除途径主要是氨的挥发和硝化反应等,而对照组NH_3—N去除率高达60.55%的主要原因是氨的挥发;植物组及对照组中NO_3~-—N浓度随时间均呈现增加趋势,主要与各试验组中水体硝化反应及植物吸收效率的差异性有关。(4)3种植物中,水菖蒲适用于点源和面源2种污染源涝池水体的净化,美人蕉只适合用于面源污染涝池水体的净化,而西伯利亚鸢尾净化能力较差,生长适应性差,不适宜作为水生浮床植物推广。研究结果为涝池污染水体修复的浮床植物选择提供参考。     

紫穗槐幼苗不同生长阶段叶水势对干旱胁迫与复水的响应特征

为揭示紫穗槐（Amorpha fruticosa）幼苗叶水势对土壤干旱与复水环境的响应特征,本研究通过盆栽试验,研究了土壤干旱胁迫及复水对紫穗槐幼苗不同生长阶段叶水势的影响。结果表明：土壤水分、干旱历时和生长阶段3个因素以及各因素间的相互作用对紫穗槐幼苗叶水势均有极显著影响（P<0.01）;随着干旱程度加剧,幼苗叶水势呈下降趋势,水分胁迫指数呈上升趋势;40.00%土壤相对含水量下的幼苗叶水势下降幅度达到最大,其中干旱15 d的生长初期和生长中期以及干旱30 d的生长后期的叶水势分别比对照下降了0.71 MPa,1.12 MPa和0.58 MPa;复水后,叶水势出现补偿效应,随着复水后时间的延长,幼苗3个生长阶段叶水势逐渐恢复,恢复速率与干旱程度、干旱历时和生长阶段密切相关,但均在复水72小时后恢复到接近对照水平。     

不同水分胁迫下的小麦/玉米间作群体响应机理研究

为探明不同水分胁迫下小麦/玉米间作群体响应机理,试验设置了1个充分灌水、3个不同水分胁迫程度间作处理及2个充分灌水单作对照处理。结果表明:共生期内,各间作处理间普遍存在小麦条带水分捕获当量比高于玉米条带的现象,随水分胁迫的加剧,此趋势愈加明显;随着生育期的推进,此趋势渐弱甚至出现反转,而带间的水分相对竞争能力则呈现逐渐下降的规律。在根系分布特征方面,充分灌溉下间作群体平均根系分布深度为17. 15～17. 24 cm,其根质量密度的90. 42%～90. 77%分布于耕层内,其中小麦为87. 49%～88. 70%,玉米为92. 63%～92. 81%,而水分胁迫会显著影响间作群体根系的空间分布。在间作优势方面,要保持间作优势,每次灌水最少需满足80%左右的田间持水率,随水分胁迫程度的增加,间作群体土地当量比呈现先微升、后下降的规律,且间作玉米的偏土地当量比下降速率快于间作小麦。在种间相对竞争能力方面,表现出随水分胁迫的加剧,小麦相对于玉米先微升、后快速下降,并逐渐近于消失的趋势。间作群体的特殊性造成了两作物条带存在时间与空间上的土壤水分差异,进而导致灌溉水入渗速度及入渗总量的不同,而水分胁迫增大了这种趋势,这在一定程度上满足了灌溉水的最佳去处,从而提高了间作群体的水分利用效率,进而揭示了间作群体的节水增产机理。     

水盐胁迫下根系提水作用对土壤盐分与番茄产量的影响

为探究水盐胁迫下番茄根系发生提水作用的可能性及其对土壤盐分分布和番茄产量的影响,利用上下桶分根装置,设定上桶不同水分(W1、W2、W3表示土壤含水率为田间持水率的60%～70%、50%～60%、40%～50%)和盐分条件(S0、S1、S2表示Na Cl添加量分别为干土质量的0、0.2%、0.4%),监测分析了水盐胁迫下根系提水量、上桶盐分分布及番茄产量。结果表明:随着生育期的推进,根系提水量呈现先增加后减小的趋势,其中盐分对番茄根系提水量影响显著,在相同水分处理条件下,盐分含量越高,根系提水量越大;水盐胁迫下,上桶盐分含量与根系提水量呈线性正相关,除W1S0处理外,上桶土壤电导率在提水量达到最大时有所增加;与对照处理W1S0相比,水盐抑制了根系生长,使根系活性显著下降,同一水分处理下,随着盐分的增加,根长、根表面积及根体积减小;盐分对番茄水分生产率有显著影响,在相同水分条件下,盐分越大,水分生产率越大,7种处理中W2S2水分生产率达到最大,而其产量较对照并未显著减小,生育期提水量占需水量的17.73%。本研究对进一步理解作物在上干下湿的土壤水盐胁迫下充分利用土壤剖面深层水分来维持上层根系生存和提高水分生产率具有科学价值。     

无源蓄冷控温运输箱设计与试验

针对蓄冷运输箱信息化程度低、控温时间短、控温困难等问题,设计了一款集控温、远程监控、定位、故障诊断等功能于一体的蓄冷运输箱。以脐橙为试验对象,结合能耗模型,对蓄冷控温箱控温性能进行了研究。结果表明,箱内各截面温度不均匀系数分别为0.38、0.47、0.78,温度极差最大值为2.8℃,均匀性较好;当蓄冷剂用量为180 kg,预冷脐橙660 kg,在外部环境平均温度26.39℃的条件下,总控温时长为122 h,风机共执行控温21次,且随着蓄冷量减少,风机开启控温所用时间呈指数上升趋势,决定系数不小于0.928 0;结合能耗模型分析得出,该箱体在广州夏季高温环境下可控温5 d以上,能够满足远距离运输要求。     

Effects of cover crop growth and decomposition on the distribution of aggregate size fractions and soil microbial carbon dynamics

Although the effects of cover crops (CC) on various soil parameters have been fully investigated, less is known about the impacts at different stages in CC cultivation. The objective of this study was to quantify the influence of CC cultivation stages and residue placement on aggregates and microbial carbon (C_mic). Additionally, the influence of residue location and crop species on CO₂ emissions and leached mineralized nitrogen (N_min) during the plant degradation period was also investigated. Within an incubation experiment, four CC species were sown in soil columns, with additional columns being kept plant‐free. After plant growth, the columns were frozen (as occurs in winter under field conditions) and then incubated with the plant material either incorporated or surface‐applied. With CC, concentrations of large and medium macroaggregates were twice that of the fallow, confirming positive effects of root growth. Freezing led to a decrease in these aggregate size classes. In the subsequent incubation, the large macroaggregates decreased far more in the samples with CC than in the fallow, leading to similar aggregate size distributions. No difference in C_mic concentration was found among the CC cultivation stages. CO₂ emissions were roughly equivalent to the carbon amounts added as plant residues. Comparison of columns with incorporated or surface‐applied residues indicated no consistent pattern of aggregate distribution, CO₂ emission or C_mic and N_min concentrations. Our results suggest that positive effects of CC cultivation are only short term and that a large amount of organic material in the soil could have a greater influence than CC cultivation.     

短坡坡长变化对坡地风沙土产流产沙及氮磷流失的影响

通过野外水流冲刷试验,对比分析了不同坡长条件下坡面产流产沙及氮磷流失特征。结果表明,上方来水流量一定时,坡长越长,其坡面入渗量越大,径流量越小,且存在一个临界坡长,使得径流量和入渗量相当,累计径流量与坡长是负线性关系。随着坡长增加,产沙量增大,单位坡长的泥沙流失量在各坡长条件下差异并不显著(P0.05)。累计泥沙量随着坡长增大而增大;幂函数比指数函数能更好的描述硝态氮和水溶性磷浓度变化过程;泥沙中硝态氮和有效磷的含量整体上随时间呈减小趋势。坡长越长,其养分富集率越大;随着坡长增大,存在一个临界坡长使得养分流失总量最大;土壤剖面硝态氮含量分布随着深度增大呈现出峰值特征,但是峰值存在的深度不同。土壤剖面有效磷主要积聚表层5cm以上,5cm以下有效磷含量极低。研究结果对进一步分析坡长对水土养分流失的影响具有参考价值。     

新修坡改梯对土壤水库库容的影响

以重庆缙云山山地黄壤为研究对象,在山地同侧但不同高程的地带,分别选取撂荒地和坡耕地2种土地利用类型地块共6块,对比分析其坡改梯工程前后土壤水库库容变化以及坡改梯区域土壤水库对削洪减灾的作用,并对小流域治理惯用的坡改梯工程的理水功能进行评价。结果表明:(1)坡改梯前后,梯地内土壤水库各项库容变化主要受土层厚度变化影响,但在绝对土层不变的情况下,库容大小在一定程度上受到坡改梯前的土地利用方式影响;(2)土壤水库特性与坡改梯引起的土壤性质变化有关,特别是与土壤孔隙、质地相关指标有关;(3)在百年一遇的设计暴雨条件下,用简化的概念型产流模型进行模拟,发现坡改梯能在理论上削减30%以上的径流,对农业区域旱涝灾害防治有重要作用。     

保护性耕作对坡耕地烟田水土流失的影响

在重庆市石柱县坡耕地开展保护性耕作试验,探究其对水土流失的影响。于2015年在重庆市石柱县坡耕地烟田开展试验,采用顺坡起垄的方式,设置4个处理:处理T1(不种植黑麦草)、处理T2(垄间种植黑麦草)、处理T3(垄体种植黑麦草)、处理T4(垄体种植黑麦草+垄间种植黑麦草)。结果表明:垄间种植黑麦草可有效减少小区径流量58.66%~65.79%,小区产沙量62.50%~68.78%,硝态氮流失52.05%~57.22%,铵态氮流失51.03%~59.98%,总磷流失51.47%~65.88%和钾流失66.93%~69.33%。垄体种植黑麦草可有效减少小区径流量54.32%~61.59%,小区产沙量52.95%~62.98%,硝态氮流失63.73%~77.49%,铵态氮流失59.12%~67.81%,总磷流失62.84%~76.22%,钾流失75.17%~77.84%。垄间和垄体均种植黑麦草可有效减少小区径流量92.09%~98.25%,小区产沙量86.43%~95.91%,硝态氮流失87.89%~94.99%,铵态氮流失90.19%~97.06%,总磷流失81.99%~91.94%,钾流失91.52%~93.88%。整体而言,垄间种植黑麦草+垄体种植黑麦草处理对重庆烟区水土保持效果最佳。     

Physiological and Biochemical Responses of Hexaploid and Tetraploid Wheat to Drought Stress

An experiment was conducted to investigate the physiological and biochemical responses of two hexaploids viz., C 306 (water stress tolerant) and Hira (water stress susceptible), and two tetraploids, HW 24 (Triticum dicoccum) and A 9‐30‐1 (Triticum durum) wheat genotypes to water stress under pot culture condition. Water stress was imposed for a uniform period of 10 days at 50, 60 and 70 days after sowing (DAS) and observations were recorded at 60, 70 and 80 DAS. Total dry matter and plant height were recorded at harvest. Water stress caused a decline in relative water content (RWC), chlorophyll and carotenoid content, membrane stability and nitrate reductase activity and increased accumulation of proline at all stages and abscisic acid (ABA) at 80 DAS in all the genotypes. Both the tetraploids showed a lower reduction in RWC and highest ABA accumulation under water stress. Among the hexaploids Hira showed the most decline in RWC and the lowest ABA accumulation. The tetraploids also showed comparatively higher carotenoid content and membrane stability, closely followed by C 306, while Hira showed the minimum response under water stress. Nitrate reductase activity and chlorophyll content under irrigated conditions were highest in Hira but under water stress the lowest per cent decline was observed in C 306, followed by HW 24, A 9‐30‐1, and Hira. Proline accumulation under water stress conditions was highest in hexaploids C 306 and Hira and lowest in tetraploids HW 24 and A 9‐30‐1. Tetraploids HW 24, followed by A 9‐30‐1 maintained higher plant height and total dry matter (TDM) under water stress and also showed a lower per cent decline under stress than hexaploids C 306 and Hira. From the results it is clear that proline accumulation did not contribute to better drought tolerance of tetraploids than hexaploids. It is also apparent that water stress tolerance is the result of the cumulative action of various physiological processes, and all the parameters/processes may not be positively associated with the drought tolerance of a particular tolerant genotype.